DE2829195A1 - WRITE / READ HEAD FOR MAGNETIC RECORDING MEDIA - Google Patents

Description

j Applicant: International Business Machines

¹ Corporation, Armonk, NY 10504

! sa / sue

I write / read head for magnetic recording media.

The invention relates to a read / write head for magnetic recording media with three magnetic yokes formed from lamellar pole sheets, of which an inner magnetic yoke has a working gap and the two outer, overlapping magnetic yokes on both sides of the working gap are arranged on both sides of the working gap _f and with two windings, of which one read / write winding is arranged on the inner, magnetically closed magnetic yoke and an erase winding surrounds the outer magnetic yokes.

in read / write head of the type mentioned is known, for example , from the American patent specification 3,846,840. In this magnetic head is by means of two erase gap containing magnetic yokes that a a working air gap on both _sides: containing the magnet yoke are arranged recorded with "tunnel erase", ie, the edge portions of the recording to be deleted immediately after the recording.

In this known magnetic head, however, the changing electrical signals occur when the recording density is particularly high superimposed noise sources appear, which are noticeable either during recording or during playback, and the performance of the device in which the magnetic head used. With these magnetic heads, which are mainly used in magnetic disk drives with flexible disks, the following two mainly occur Noise sources appear, which are already described in the American patent specification 3 668 658:

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1) Incomplete formation of the safety bands

I If the ί caused by the current in the quenching coil Magnetic flux in the extinguishing gaps, which is used to delete lateral security tapes, is not sufficient, the magnetic material of the recording medium, ζ. Β. the magnetic disk, to saturate, so old data (earlier recorded magnetic transitions) cannot be completely erased. In addition, a time-variable magnetic flux from external sources, for example from the magnetic write circuit, the erase circuit flux is superimposed, cause weak magnetic transitions in the security bands. In this case, if there is a deviation of the read head from the track, the working gap both from the desired signals and also affected by the noise left over from previous data and the weak transitions in the guard band.

2) bias by the cancel signal

In the case of the American patent 3 846 840 ! As described in the design of the magnetic head, part of the magnetic flux flows through the erasing gaps a current is generated in the quenching coil, also through the working gap. When deleting at the same time as occurs upon recording, which is very often the case, this flow becomes algebraically that through the read / write coil generated flow added. In this way the recording signal is disturbed as the carefully balanced Flux change of the recording signal are brought out of balance.

The object of the invention is to provide a read / write head of the aforementioned Specify the type in which the security tapes on both sides of the data track are completely erased by control

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tion of the magnetic flux of the extinguishing circuit in the extinguishing gaps, without higher demands on the precision of the erase gaps, the dimensions of the erase gaps forming Pole plates or other parameters of the extinguishing circuits are required.

According to the invention, this object is achieved in a write / Reading head of the type mentioned above is achieved in that each of the two magnetic yokes encloses one leg of the pole plates Erase winding is arranged protruding beyond the free end of the pole sheets and forming an air gap low magnetic permeability is limited by a web closing the magnetic circuit.

Further advantageous features of the invention are set out in the subclaims marked.

The invention is explained on the basis of one of the drawings Embodiment described. Show it:

1 shows a read / write head of the type already proposed in a longitudinal section,

Fig. 2 also in a longitudinal section, the writing /! Read head according to the features characterized in claims,

3 shows the read / write head in a diagrammatic view View, and

FIG. 4 is a plan view of the read / write head from FIG down on the tread.

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1 shows an already proposed read / write head 20 which in certain respects is similar to the read / write head described in US Pat. No. 3,846,840. The read / write head 20 consists of a pair of magnetically permeable pole plates 22 and 24, which form the read / write yoke A, and a lateral web 26 which connects the upper ends of the yoke plates 22 and 24. The yoke plate 22 has a beveled, angled part 22a, which is arranged closely adjacent to the side surface of the yoke plate 24, so that a write / read gap is formed in the effective surface 30 of the read / write head 20. This gap comes into contact with a magnetic disk or another magnetic recording medium on which the read / write head records information or from which it is intended to read information. The read / write head 20 also contains the yoke plates 32 and 34, which form the erase yoke B. The yoke plate 32 has an angled, beveled surface 32a, which is arranged close to the lateral surface of the yoke plate 34 and forms an extinguishing gap 36. An erase coil 38 is arranged, on the side remote from column 26 jund 28 ^page is on the arm 32b of the yoke plate 32nd In contrast to the representation in the American patent 3846840, this quenching coil extends beyond the end 32c of the yoke plate 32. ι I

^; A ceramic spacer 40 extends over the yoke,

Sheets 22 and 24 and is in the running direction X with the yoke sheets 32 and 34 aligned. The direction of travel X is the direction in which the magnetic disk or another magnetic The recording medium crosses the running surface 30 of the magnetic head! A similar ceramic spacer 42 is included ! the yoke plates 22 and 24 aligned in the X direction.

To demonstrate the operation of the magnetic head 20, see sine In Fig. 1, a leakage flux line 44 and a major flow line 46 a drawn. The two noise sources j described in the introduction occur with this magnetic head as well as with that of the American,

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See Patent 3,846,840. As a result of the leakage flux, which is indicated by the flow line 44, an incomplete safety band is formed. This is due to the alternating current: in the winding of the magnet yoke A. The flow along line 44 occurs during writing by means of gap 28, while at the same time erasing by means of gap 36. The flow indicated by the flow line 44 is time-dependent in accordance with the magnetic transitions recorded by the read / write gap 28. The flux that flows through the gap, as indicated by the flow line 44, also passes through the erase gap 36 and causes unwanted, weak magnetic transitions to be recorded in the security tape under the erase gap. If unwanted transitions in the safe; are recorded standardized band, so when off while recording or during playback of the read / write head from the track gives way '- which, however, is indeed undesirable sometimes unavoidable - the read / write gap 28 when reading both the \ wanted signal from the data track as well as from the noise caused by these weak transitions in the security band. influences. i

The magnetic flux line 44 also shows that part of the Flux in the erase gap 36, which is caused by the current in the erase winding 38, also through the write / read gap 28 flows. This flux generated by the erase coil 38 is added to the writing flux in the gap 28 and disturbs the recorded Signal on the data track below the gap 28, as the carefully balanced flow change of the recorded Signal can be unbalanced. The flux line 46 shows how the magnetic flux from the erase coil 38 should run, namely directly through the yoke 34 to the extinguishing gap 36.

In the embodiment of the read / write head shown in FIG. 1, the task is to have the effect of the two mentioned

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To reduce noise sources at the same time is more difficult to solve than with a corresponding design of the read / write head the representation in the American patent specification 3,846,840. Since the quenching winding 38 protrudes beyond the yoke plate 32 for structural reasons, the same current is in the quenching winding 38 the magnetic flux in the extinguishing gap 36 is lower. As a result, the flux is insufficient, the magnetic material to satiate. When the current in the erase winding 38 is increased, saturation of the guard bands on both sides of the data track, the disturbance of the signal is increased considerably, since that generated by the cancellation winding 38 Flux also flows through the write / read gap 28.

In the read / write head 60 shown in FIGS. 2, 3 and 4, the parts 22 to 42 are the same as those described in FIG. 1 in connection with the read / write head 20. The read / write head 60 additionally contains an L-shaped web 62, which lies over the upper end of the erase winding 38 and forms a bridge to the yoke plate 34. In detail, the arm which extends horizontally in the illustration in FIG. 2 is: 62a in connection with the upper end of the extinguishing winding 38; and the vertical arm 62b is in contact with the pole plate 34. The pole plate 32 ends below the web 62 so that an air gap 64 is formed between its upper end 32c and the horizontal part 62a of the web.

Other parts of the read / write head 60 are shown in FIGS. A ceramic spacer 66 is aligned with a second set of pole plates 68 and 70 to form the quenching yoke C. The upper end 68c of the Polbleches 68 is within the erase winding 38 at the same height as the upper end 32c of the Polbleches 32. The only erase winding 38 thus surrounds both erase yoke plates 32 and 68 _r and the air gap 64 for both yokes 32 and 68 effective.

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The pole plates 68 and 70 form an extinguishing gap 72 which is similar to the extinguishing gap 36 and which is perpendicular to the direction the direction of movement X is aligned with the extinguishing gap 36. The write / read winding 74 shown in FIG. 3 encloses the pole sheet 22 on the outer surfaces of the pole sheets 32 and 34 and spacer 40 as well as on the outer surfaces the pole plates 68 and 70 and the spacer 66 are attached to brackets 76 and 78, respectively. As shown in Figures 3 and 4 too As can be seen, the boom 76 is considerably wider than the boom 78, and the boom 76 has a channel 76a which extends in direction X in which the magnetic recording medium moves over the running surface of the read / write head 60. The recording medium can, for example consist of a disk D which rotates about a central axis d (Fig. 3) and which consists, for example, of flexible material, which is housed in a protective cover.

The read / write yoke A with the pole plates 22 and 24 and the spacer 42 forms a central position with respect to a first lateral position, which by the extinguishing yoke B with the pole i sheets 32 and 34 and the spacer 40 is formed and I a second lateral layer with the extinguishing yoke C, which consists of the] Pole plates 68 and 70 and the spacer 66 is formed. 'The thickness of the middle read / write layer can, for example, j 0.33 mm and the outer layers of yokes B and C can be for example 0.165 mm thick. The relatively wide range; casual 76 and the relatively narrow arm 78 complete the five layers of which the read / write head 60 is composed is.

During operation, the read / write winding can be time-dependent Current and at the same time the quenching winding 38 are acted upon by a direct current. This creates a magnetic track by the magnetic flux in the magnet yoke A with the web 26 and recorded through the write / read gap 28. The magnet

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disk D moves in the direction X. After a little The erase gaps 36 and 72 take effect part of a revolution and erase all of them on both sides of the read / write gap 28 Edge magnetizations of the data track on the disk B. The erase magnetic yokes B and C are in the direction X on the running surface 30 arranged offset with respect to the write / read yoke A, as can be seen in particular from FIG. The quenching winding 38 provides the extinguishing flow that flows through the air gap 64, the L-shaped web 62 and the extinguishing yokes B and C. Included the web 62 and the air gap 64 belong to both magnetic erasing circles. Obviously, deleting can be done with The help of the magnetic yokes B and C and the extinguishing gaps 36 and 72 can be used for successive rotations of the disk D. During reading, alternating currents are induced in the write / read winding 74 from a data track on the disk D.

To illustrate the mode of operation of the read / write head 60 _; in Fig. 2, a main flow line 80 in the extinguishing yoke B is drawn -, 'net. The flow line 80 penetrates the air gap 64, the L-shaped web 62, the yoke plate 34, the quenching gap 36, the yoke plate 32 and the quenching winding 38. The L-shaped web 62 thus closes the magnet yoke B with the pole plates 34 and 32 more completely than in Fig. 1, so that the magnetic resistance! of the erase circuit is reduced and less flux, which is generated by the erase winding 38, flows through the pole plates 22 and the 'write / read gap 28'. As a result, the deletion of the ■ security tape with the help of the deletion gap 36 and the wick; llung 38 is more complete, but at the same time inscribed with the help of the space 28. By decreasing the flow 44! the biasing effect of the erase flux is also reduced, which results from the flux generated by the erase winding 68 also passing through the write / read gap 28 and interfering with the recorded signal. What has just been said in connection with the extinguishing yoke B and the extinguishing gap 36 also applies to the extinguishing yoke C, which partially flowed through the same web 62

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The air gap 64 is an important part of the read / write head. The magnetic resistance of the air gap 64 outweighs the magnetic resistance in both magnetic extinguishing E trips, the circle with the extinguishing yoke B and the circle with the ösch yoke C. This is particularly the case because the air gap 64 is completely within the Erase winding 38 is located. The current in the winding influences the distribution of the magnetic field within the air gap 64. The air gap 64 therefore creates an equilibrium between the magnetic (resistances of the two quenching circles, since it is part of both [circles and the predominant part of the magnetic resistance The air gap 64 also enables the reproducibility in the manufacture of the read / write heads; in other words, the effect of the erase gaps 36 and 72 is constant in the mass production of the read / write heads the pole plates 32 _f 34 and 68, 70 to close existing extinguishing circles with the help of the L-shaped ferrite web 62, solves the equilibrium and reproducibility problems only if the i

Air gap 64 is provided, the inevitable, variable gap; ten on the glue lines, etc. dominated. In this context j

it should be mentioned that the web 26 is connected to the pole plates 22 and 24 by a simple adhesive connection, and that the web 62 is also connected to the pole plates 34 and 70 by simple adhesive connections. For this adhesive connection an epoxy resin can be used and the adhesive bonds are made as thin as possible. Nevertheless, in the Production fluctuations in the thickness of the adhesive bonds occur. This means that the magnetic resistance of these also varies Adhesive connections. The common air gap 64 between the web 62 and the upper ends 32c and 68c of the pole sheets 32 and However, 68 forms the dominant part of the magnetic resistance of each of the two quenching circles, so that fluctuations,

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caused by adhesive bonds are meaningless. j

The magnetic resistance of each of the two erasing circles including the web 62 and the magnetic yokes B and C of the read / write head 60 is approximately 50 to 70% of the magnetic resistance of the corresponding erasing circles of the embodiment shown in FIG. This is due to the fact that the lateral web 62 closes most of the erase yokes B and C of the read / write head 60, while in the read / write head 20 shown in FIG. z. B. between the pole plates 32 and 34 exists. Since the web 62 closes most of the erase yokes B and C and concentrates the leakage flux essentially on the flux line 80, the flux generated by the erase winding 38 through the write / read gap is less. In both read / write heads 20 and 60, however, the air gaps with respect to the magnetic resistance of the erase circles are dominant. In the case of the read / write head of FIG. 1, the magnetic resistance of the air gap between the pole plates 32 and 34 is approximately 95% of the total magnetic resistance in the erase circuit including the pole plates 32 and 34. In the case of the read / write head 60 the magnetic resistance of the air gap 64 is about 85% of the total magnetic resistance of each of the quenching circles including the two yokes B and C. Although the contribution of this smaller air gap 64 to the total resistance is not quite as great as the contribution of the air gap between the pole plates 32 and 34 in the read / write head 20, the air gap 64 still has a sufficiently large controlling portion of the magnetic resistance to achieve a balance between the magnetic resistances of the two erasing circles. Thus, the flow in both columns 36 and 72 is exactly the same, regardless of fluctuations in the magnetic resistance at adhesive connections. In a successful implementation of the read / write head 60, the air gap 64 was 0.51 mm long, while the

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ί Average length of the magnetic erasing circles approximately 9.9 mm !fraud. The air gap 6 4 thus had a length of approximately | 5% of the mean length of the magnetic erasing circles.

It is believed important that the erase coil 38 and the air gap 64 within the erase coil 38 be coaxial with the 'Legs 32b and 68b of the pole sheets 32 and 68 are arranged, since the winding 38 and the air gap 64 are relative in this way far from the write / read gap 28. The L-shaped one Web 62 thus forms a path 80 of low resistance for most of the extinguishing flow and diverts it away jWrite / read yoke A and from the write / read gap 28. The fraction of the erase flow that goes through the read / write gap 28 flows, is reduced by a factor of 2. With the arrangement of FIG. 2, approximately double the extinguishing flow can be achieved are compared with the erase flow of the read / write · head 20 without the disturbance in the read / write gap 28 and so that the disturbance of the recorded signal is increased.

Similar to the Sehreib- / write head described, as already mentioned, in some respects to that of the United States Patent Specification 3 846 840. For example, magnetic perme- able j parts 24, 26, 22, 32, 34, 68 _f 70 and 62 of the same ma- ; materials such as iron, nickel, zinc ferrite. The spacers 42, 40 and 66 and the arms 76 and 78 can also be made of the same ceramic materials, for example! Barium titanate. An advantage of these materials] is that they have essentially the same coefficient of thermal expansion so that the read / write head does not warp. In addition to the epoxy resin already mentioned, glass, for example lead-borosilicate glass, can also be used for adhesive connections.

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Claims (4)

- y- PATENT CLAIMS ι Ay read / write head for magnetic recording media with three magnetic yokes formed from lamellar pole sheets, of which an inner magnetic yoke has a working gap and the two outer, in the direction of travel opposite to the first, overlapping magnetic rake have erasing gaps arranged on both sides of the working gap, and with two windings , of which a read / write winding is arranged on the inner, magnetically closed magnet yoke and an erase winding encloses the outer magnet yokes, characterized in that the erase winding ( 38) is arranged protruding beyond the free end (32c, 68c) of the pole plates and is delimited by a web (62) closing the magnetic circuit, forming an air gap (64) of low magnetic permeability. 2. read / write head according to claim 1, characterized in that! that the quenching winding (38) on the outer legs (32b, 32c) facing away from the working gap (28) of the quenching magnet yokes forming pole sheets is arranged. 3. read / write head according to claims 1 and 2, characterized characterized in that the air gap (64) formed within the quenching winding is approximately 85% of the magnetic reluctance of an entire extinguishing magnet yoke. 4. read / write head according to claims 1 to 3, characterized in that the length of the within the erase winding Air gap formed about 5% of the mean length of the two pole plates and the connecting web formed magnetic quenching circle is. ro 977 012 809885 / 07ΓΓ ~ ORIGINAL INSPECTED J5. Read / write head according to Claims 1 to 4, characterized in that the web I (62) terminating the erase circle is L-shaped with an ^{arm (62a) connected to:} the erase winding (38) and a corresponding arm ; to vertical arm (62b) connected to the pole plates. Ro 977 0T2 8 0 9 88 5 / QTTT